Email this article Landau-Level Quantization of the Yellow Excitons in Cuprous Oxide
- Authors: Heckötter J.1, Thewes J.1, Fröhlich D.1, Aßmann M.1, Bayer M.1,2
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Affiliations:
- Experimentelle Physik 2
- Ioffe Institute
- Issue: Vol 60, No 8 (2018)
- Pages: 1625-1628
- Section: Optical Properties
- URL: https://ogarev-online.ru/1063-7834/article/view/203662
- DOI: https://doi.org/10.1134/S1063783418080103
- ID: 203662
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Abstract
Lately, the yellow series of P-excitons in cuprous oxide could be resolved up to the principal quantum number n = 25. Adding a magnetic field, leads to additional confinement normal to the field. Thereby, the transition associated with the exciton n is transformed into the transition between the electron and hole Landau levels with quantum number n, once the associated magnetic length becomes smaller than the related exciton Bohr radius. The magnetic field of this transition scales roughly as n–3. As a consequence of the extended exciton series, we are able to observe Landau level transitions with unprecedented high quantum numbers of more than 75.
About the authors
J. Heckötter
Experimentelle Physik 2
Email: manfred.bayer@tu-dortmund.de
Germany, Dortmund, D-44221
J. Thewes
Experimentelle Physik 2
Email: manfred.bayer@tu-dortmund.de
Germany, Dortmund, D-44221
D. Fröhlich
Experimentelle Physik 2
Email: manfred.bayer@tu-dortmund.de
Germany, Dortmund, D-44221
M. Aßmann
Experimentelle Physik 2
Email: manfred.bayer@tu-dortmund.de
Germany, Dortmund, D-44221
M. Bayer
Experimentelle Physik 2; Ioffe Institute
Author for correspondence.
Email: manfred.bayer@tu-dortmund.de
Germany, Dortmund, D-44221; St. Petersburg, 194021
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